Ghent, Belgium
October 25, 2016

Because plants cannot relocate when resources become scarce, they need to efficiently regulate their growth by responding to environmental cues. Drought is the most important cause of reduced plant growth and crop yield, which makes insights into a plant’s drought response highly valuable to agriculture. A team of VIB and Ghent University researchers set out to shed more light on this vital topic through a research initiative led by Professor Dirk Inzé. The study provided major insights into how plants cope with water-limiting conditions, which can direct advanced breeding and genome engineering efforts to create high-performing, drought-tolerant crop plants. The findings are published in the leading academic journal The Plant Cell.

Scientists predict that climate change will cause widespread agricultural problems, mainly in the form of drought – especially when fresh water and irrigation infrastructure are not available. Extreme food shortages could be the result, making it very important for scientists to find new ways to protect crop plants against drought on a genetic level. But before they can do this, they need to understand more about which genes are responsible for the changes in a plant’s growth rate under drought conditions.

Large-scale study uses the latest genetic analysis technologies
Before this study – the largest of its kind - conducted by a team led by Professor Dirk Inzé, scientists had little insight into the genes and genetic processes that drive some plants to limit their growth under drought conditions while others grow normally. To learn more about these growth-regulating genes, Dr. Inzé’s team, in close collaboration with Dr Arthur Korte of the GMI (Austria) and the University of Würzburg (Germany), looked at the genetic variability of 100 types (accessions) of the Arabidopsis thaliana model plant. While growing these plants under mild drought stress, they performed in-depth cellular and molecular analyses of each plant’s responses. The results surprised them.

Prof Inzé (VIB-Ghent University): “We observed huge differences in drought tolerance across the 100 accessions: some grew normally, while others stayed very small. This large-scale analysis allowed us to identify exactly which genes play a pivotal role in a plant’s defense mechanism against drought. It was an astonishing journey to unravel the vast complexity of these mechanisms – the diversity of nature is a great learning environment.”

Core genes affected by drought stress identified
At a molecular level, even though the diversity in the drought responses of the different accessions was huge, only a small number of genes was affected in virtually all 100 types of Arabidopsis. These genes are the core of a plant’s drought defense response.

Prof Inzé (VIB-Ghent University): “This study provided major insights into how plants cope with water-limiting conditions, which can direct advanced breeding and genome engineering efforts to create high-performing, drought-tolerant crop plants. In the next phase of the study, we will examine and categorize the functions of the genes that we identified – not only in model organisms, but also in agriculturally and economically important crops such as corn.”

Publication
Leaf Growth Response to Mild Drought: Natural Variation in Arabidopsis Sheds Light on Trait Architecture, Clauw P. et al, The Plant Cell 2016
DOI:  10.​1105/​tpc.​16.​00483

VIB
Basic research in life sciences is VIB’s raison d’être. On the one hand, we are pushing the boundaries of what we know about molecular mechanisms and how they rule living organisms such as human beings, animals, plants and microorganisms. On the other, we are creating tangible results for the benefit of society. Based on a close partnership with five Flemish universities – Ghent University, KU Leuven, University of Antwerp, Vrije Universi0eit Brussel and Hasselt University – and supported by a solid funding program, VIB unites the expertise of 75 research groups in a single institute. VIB’s technology transfer activities translate research results into new economic ventures which, in time, lead to new products that can be used in medicine, agriculture and other applications. VIB also engages actively in the public debate on biotechnology by developing and disseminating a wide range of science-based information about all aspects of biotechnology. More information: www.vib.be.

Website: http://www.ugent.be

Published: October 25, 2016